void usage(void) { rt_help(); printf("matrix_mult specific options:\n"); printf(" -l# #: number of multiplications per iteration (load)\n"); printf(" -i# #: number of iterations\n"); }
void usage(void) { rt_help(); printf("gtod_infinite specific options:\n"); printf(" -wWINDOW iterations in max value window (default inf)\n"); printf(" -tDURATION test duration in finite hours (default inf)\n"); }
void usage(void) { rt_help(); printf("prio-preempt specific options:\n"); printf(" -i #: enable interrupter threads\n"); printf(" -n# #: number of busy threads\n"); }
void usage(void) { rt_help(); printf("prio-wake specific options:\n"); printf(" -n# #: number of worker threads\n"); printf(" -l# 1:lock the mutex before broadcast, 0:don't\n"); printf(" defaults to 1\n"); }
void usage(void) { rt_help(); printf("testpi-7 specific options:\n"); printf(" -i# #: number of iterations\n"); printf(" -f #: Use flag mutex\n"); printf(" -x# #:number of mid priority threads\n"); }
void usage(void) { rt_help(); printf("pi_perf_test specific options:\n"); printf(" -nNUMBER Number of busy threads. Default = number of cpus\n"); printf(" -iNUMBER Number of iterations. Default = %d\n", DEF_ITERATIONS); printf(" -tPERIOD Duration of work. Number of ms.\n"); }
void usage(void) { rt_help(); printf("periodic_cpu_load_single specific options:\n"); printf(" -lCALC_LOOPS loops per iteration\n"); printf(" -fFILENAME_PREFIX filename prefix for plot output\n"); printf(" -iITERATIONS number of iterations to calculate the average over\n"); printf(" -r[0-99] real-time priority\n"); printf(" -tPERIOD period in ms\n"); }
void usage(void) { rt_help(); printf("sched_latency specific options:\n"); printf(" -dLOAD periodic load in ms (default 1)\n"); printf(" -lTHRESHOLD trace latency, with given threshold in us\n"); printf(" -tPERIOD period in ms (default 5)\n"); printf(" -iITERATIONS number of iterations (default %d)\n", DEFAULT_ITERATIONS); }
static void usage() { rt_help(); printf("Usage:\n" "-a priority Priority of the threads" "-r time Run time (ms) to busy loop the threads (20)\n" "-t time Sleep time (ms) between intervals (100)\n" "-e time Max allowed error (microsecs)\n" "-l loops Number of iterations to run (50)\n" ); }
void usage(void) { rt_help(); printf("pthread_cond_many specific options:\n"); printf(" -r,--realtime run with realtime priority\n"); printf(" -b,--broadcast use cond_broadcast instead of cond_signal\n"); printf(" -iITERATIONS iterations (required)\n"); printf(" -nNTHREADS number of threads (required)\n"); printf("deprecated unnamed arguments:\n"); printf(" pthread_cond_many [options] iterations nthreads\n"); }
void usage(void) { rt_help(); printf("testpi-2 specific options:\n"); }
void usage(void) { rt_help(); printf("sched_jitter specific options:\n"); }
void usage(void) { rt_help(); printf("periodic_cpu_load specific options:\n"); printf(" -iITERATIONS number of iterations to calculate the average over\n"); }
void usage(void) { rt_help(); printf("rdtsc-latency specific options:\n"); printf(" This testcase don't expect any commandline options\n"); }
void usage(void) { rt_help(); printf("pthread_kill_latency specific options:\n"); printf(" -l threshold trace latency with given threshold in us\n"); }
void usage(void) { rt_help(); printf("sbrk_mutex specific options:\n"); }
void usage(void) { rt_help(); printf("lookup_pi_state specific options:\n"); }
void usage(void) { rt_help(); printf("testpi-0 specific options:\n"); printf("testpi-0 doesn't require any commandline options\n"); }